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imselva
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- TL;DR Summary
- I have two bodies, one at a higher temperature say 1000°C (Body A) and the other is at 22°C (Body B).
Body A emits Radiation (Surface to Surface interaction). The temperature of Body A is maintained by a constant supply of Energy.
The Body B will absorb the Radiation Energy from Body A, and its internal Energy is increased.
How long will it take for Body B to reach higher temperature (Say 500 or even 1000°C).
Please let me know the science behind this Radiation heat Transfer Equilibrium
I have two bodies, one at a higher temperature say 1000°C (Body A) and the other is at 22°C (Body B).
Body A emits Radiation (Surface to Surface interaction). The temperature of Body A is maintained by a constant supply of Energy.
The Body B will absorb the Radiation Energy from Body A, and its internal Energy is increased.
How long will it take for Body B to reach higher temperature (Say 500 or even 1000°C).
Please let me know the science behind this Radiation heat Transfer Equilibrium state.
Body A emits Radiation (Surface to Surface interaction). The temperature of Body A is maintained by a constant supply of Energy.
The Body B will absorb the Radiation Energy from Body A, and its internal Energy is increased.
How long will it take for Body B to reach higher temperature (Say 500 or even 1000°C).
Please let me know the science behind this Radiation heat Transfer Equilibrium state.